PGPRs and Phytoremediation Introduce New NEXUS Approach
Rinad Hamed
Chemistry / Water and Environment
AL- Najah University
I earned MERDC innovation project fellowships in 2014 , 2018 alternatively for :
• 2014- Innovation Initiative MSc. Thesis entitled: “Phytoremediation for treatment of brackish water in ground wells exist in Jericho districts”.
• 2018- Innovation Initiative Research Project entitled: “Phytoremediation & PGPRs for treatment of brackish water to mitigate climate change effect”.
Under processing
OUTLINE OF PRESENTATION:
1. RESEARCH BACKGROUND &PROBLEM2. METHEDOLOGY3. RESULT AND DISSCUSION 4. CONCLUSTION
1. RESEARCH PROBLEM: WATER : Already water is a scarce resource in many places » » » So it has to be managed or adapt
new methods or addresses new legislation, or introducing new alternative water resources, or improved existing techniques.
DO YOU KNOW the Existing amount of brackish water In West Bank/ Jericho groundwater wells ranged from (12-18) million m3, This is the key of the solution…. to utilize it
BUT How???
• FOOD: Food scarcity issue , no adequate quantity livestock fodder, agriculture is already the biggest user of fresh water resources , limitation of Climate change techniques adaptation , absence of addressing new plant species RESIELANCE with climate change issues, Phytoremediation a method used to remediate water and land salt using tolerant plants. But WHEN IT COMES TO HIGH SALINITY.. IT INHIBIT ITS ROLE???
ENERY : global challenges, desalination plants un sustainable solution, ---high cost , high energy water issues is having the energy needed to transport, treat or desalinate water resources
2.METHEDOLOGYThe research initiative implement NEXUS methodology, introducing
WATER, FOOD, ENERGYpillars
Addressing non- conventional technique among SUSTAINABLE DEVELOPEMNT
context.
PHYTOREMEDIATION + PGPRs strains (UW3, UW4) waterloo university, prof. Glick lab
Trails: irrigated with fresh water
Brackish water 6000 ppm , 10000ppm
RESULT AND DISSCUSION
Plant/ TrialsSoil based
Hydroponic
Control trials
Seeds pots germinated with
UW3
Seeds pots germinated with
UW4
Seeds pots germinated with
UW3+UW4Barely Plant
Malt Plant
Guar Plant
Irrigation with :
-Fresh water
-6000 mg/L of brackish water
-10000 mg/L of brackish water
Irrigation with :
-Fresh water
-6000 mg/L of brackish water
-10000 mg/L of brackish water
Irrigation with :
-Fresh water
-6000 mg/L of brackish water
-10000 mg/L of brackish water
Irrigation with :
-Fresh water
-6000 mg/L of brackish water
-10000 mg/L of brackish water
Figure 1. Schematic diagram of PGPR containing ACC deaminase lower the ethylene hormone, ACC (Glick et.al.. 1998).
Figure 2. trails schemes
Bio-mass comparison between fresh and other trails :
Control Barley Plant irrigated with fresh water (Left),Barley Plant with UW3+UW4 irrigated with 6000 mg/L (Right) Control Barley Plant irrigated with fresh water (Left),
Barley Plant with UW3+UW4 irrigated with 6000 mg/L (Right)Trials Fresh water 6000 mg/L of brackish
water .10000 mg/L of brackish
water.
Control Barely plant 100% 8.98 % 150.08%
Barely plant treated with UW3
237.31% 249.40% 156.11%
Barely plant treated with UW4
156.11% 237.31% 288.83%
Barely plant treated with UW3 +UW4
128.12% 267.67% 288.56%
Guar Plant under implementation and analysis
Growth Habits:Guar is an upright contain 35% of protein, coarse-growing summer annual legume known for its drought resistance. Its deep tap roots reach moisture deep below the soil surface. Most of the improved varieties of guar have glabrous (smooth, not hairy) leaves, stems and pods. Plants have single stems, fine branching or basal branching (depending on the variety) and grow to be 18 to 40 in.
Conclusions • Integrated NEXUS-livelihoods framework.
• Combines water–energy–food nexus and sustainable livelihoods approaches ( Efficient techniques, climate change mitigation, friendly environmental solution, utilization of alternative water resources)
• Addressing SD goals and indicators in terms of affordable and clean energy, zero hunger, water resources , climate action ,innovation.
• Study the impact of water security on energy, food and environmental security. The effect of water scarcity and variability on these other spheres can be mitigated through social, economic and political actions.
• The implemented framework provides a tool for assessing environmental livelihood security.
• This methods can be carried at multiple spatial scales and institutional levels.
• Technique implemented and designed to enhance policy-making for sustainable development agendas.